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Polyester compositions containing cyclobutanediol and articles made therefrom

a polycarbonate and composition technology, applied in the field of polycarbonate compositions made from terephthalic acid, can solve the problems of poor melt processability, poor chemical resistance of polycarbonate, and difficult to form amorphous articles by methods known in the art, and achieve superior viscosity and/or glass transition temperature, good color and clarity, and high impact strength

Inactive Publication Date: 2006-12-21
EASTMAN CHEM CO
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0008] It is believed that certain compositions formed from terephthalic acid or an ester thereof, or mixtures thereof; 1,4-cyclohexanedimethanol; and 2,2,4,4-tetramethyl-1,3-cyclobutanediol with certain monomer compositions, inherent viscosities and / or glass transition temperatures are superior to polyesters known in the art and to polycarbonate with respect to one or more of high impact strengths, hydrolytic stability, toughness, chemical resistance, good color and clarity, long crystallization half-times, low ductile to brittle transition temperatures, lower specific gravity and / or thermoformability. These compositions are believed to be similar to polycarbonate in heat resistance and are still processable on the standard industry equipment.
[0130] Also, in one aspect, use of the polyester compositions of the invention minimizes and / or eliminates the drying step prior to melt processing and / or thermoforming.

Problems solved by technology

This polyester crystallizes rapidly upon cooling from the melt, making it very difficult to form amorphous articles by methods known in the art such as extrusion, injection molding, and the like.
While these copolyesters are useful in many end-use applications, they exhibit deficiencies in properties such as glass transition temperature and impact strength when sufficient modifying ethylene glycol is included in the formulation to provide for long crystallization half-times. For example, copolyesters made from terephthalic acid, 1,4-cyclohexanedimethanol, and ethylene glycol with sufficiently long crystallization half-times can provide amorphous products that exhibit what is believed to be undesirably higher ductile-to-brittle transition temperatures and lower glass transition temperatures than the compositions revealed herein.
Although bisphenol-A polycarbonate has many good physical properties, its relatively high melt viscosity leads to poor melt processability and the polycarbonate exhibits poor chemical resistance.
It is also difficult to thermoform.
Generally, however, these polymers exhibit high inherent viscosities, high melt viscosities and / or high Tgs (glass transition temperatures) such that the equipment used in industry can be insufficient to manufacture or post polymerization process these materials.

Method used

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  • Polyester compositions containing cyclobutanediol and articles made therefrom
  • Polyester compositions containing cyclobutanediol and articles made therefrom
  • Polyester compositions containing cyclobutanediol and articles made therefrom

Examples

Experimental program
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Effect test

example 1

[0222] This example illustrates that 2,2,4,4-tetramethyl-1,3-cyclobutanediol is more effective at reducing the crystallization rate of PCT than ethylene glycol or isophthalic acid. In addition, this example illustrates the benefits of 2,2,4,4-tetramethyl-1,3-cyclobutanediol on the glass transition temperature and density.

[0223] A variety of copolyesters were prepared as described below. These copolyesters were all made with 200 ppm dibutyl tin oxide as the catalyst in order to minimize the effect of catalyst type and concentration on nucleation during crystallization studies. The cis / trans ratio of the 1,4-cyclohexanedimethanol was 31 / 69 while the cis / trans ratio of the 2,2,4,4-tetramethyl-1,3-cyclobutanediol is reported in Table 1.

[0224] For purposes of this example, the samples had sufficiently similar inherent viscosities thereby effectively eliminating this as a variable in the crystallization rate measurements.

[0225] Crystallization half-time measurements from the melt were ...

example 1a

[0229] This example illustrates the preparation of a copolyester with a target composition of 80 mol% dimethyl terephthalate residues, 20 mol % dimethyl isophthalate residues, and 100 mol% 1,4-cyclohexanedimethanol residues (28 / 72 cis / trans).

[0230] A mixture of 56.63 g of dimethyl terephthalate, 55.2 g of 1,4-cyclohexanedimethanol, 14.16 g of dimethyl isophthalate, and 0.0419 g of dibutyl tin oxide was placed in a 500-milliliter flask equipped with an inlet for nitrogen, a metal stirrer, and a short distillation column. The flask was placed in a Wood's metal bath already heated to 210° C. The stirring speed was set to 200 RPM throughout the experiment. The contents of the flask were heated at 210° C. for 5 minutes and then the temperature was gradually increased to 290° C. over 30 minutes. The reaction mixture was held at 290° C. for 60 minutes and then vacuum was gradually applied over the next 5 minutes until the pressure inside the flask reached 100 mm of Hg. The pressure inside...

example 1b

[0231] This example illustrates the preparation of a copolyester with a target composition of 100 mol % dimethyl terephthalate residues, 20 mol % ethylene glycol residues, and 80 mol % 1,4-cyclohexanedimethanol residues (32 / 68 cis / trans).

[0232] A mixture of 77.68 g of dimethyl terephthalate, 50.77 g of 1,4-cyclohexanedimethanol, 27.81 g of ethylene glycol, and 0.0433 g of dibutyl tin oxide was placed in a 500-milliliter flask equipped with an inlet for nitrogen, a metal stirrer, and a short distillation column. The flask was placed in a Wood's metal bath already heated to 200° C. The stirring speed was set to 200 RPM throughout the experiment. The contents of the flask were heated at 200° C. for 60 minutes and then the temperature was gradually increased to 210° C. over 5 minutes. The reaction mixture was held at 210° C. for 120 minutes and then heated up to 280° C. in 30 minutes. Once at 280° C., vacuum was gradually applied over the next 5 minutes until the pressure inside the fl...

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Abstract

Described are polyesters containing (a) a dicarboxylic acid component having from 70 to 100 mole % of terephthalic acid residues, and up to 30 mole % of aromatic dicarboxylic acid residues or aliphatic dicarboxylic acid residues; and (b) a glycol component having from 40 to 65 mole % of 2,2,4,4-tetramethyl-1,3-cyclobutanediol residues, and from 35 to 60 mole % of 1,4-cyclohexanedimethanol residues; wherein the total mole % of the dicarboxylic acid component is 100 mole %, and the total mole % of the glycol component is 100 mole %. The polyesters may be manufactured into articles such as fibers, films, containers, bottles or sheets.

Description

CROSS-REFERENCES TO RELATED APPLICATIONS [0001] This application claims priority under 35 U.S.C. §119(e) to U.S. Provisional Application Ser. No. 60 / 691,567 filed on Jun. 17, 2005, U.S. Provisional Application Ser. No. 60 / 731,454 filed on Oct. 28, 2005, U.S. Provisional Application Ser. No. 60 / 731,389, filed on Oct. 28, 2005, U.S. Provisional Application Ser. No. 60 / 739,058, filed on Nov. 22, 2005, and U.S. Provisional Application Ser. No. 60 / 738,869, filed on Nov. 22, 2005, U.S. Provisional Application Ser. No. 60 / 750,692 filed on Dec. 15, 2005, U.S. Provisional Application Ser. No. 60 / 750,693, filed on Dec. 15, 2005, U.S. Provisional Application Ser. No. 60 / 750,682, filed on Dec. 15, 2005, and U.S. Provisional Application Ser. No. 60 / 750,547, filed on Dec. 15, 2005, all of which are hereby incorporated by this reference in their entireties.FIELD OF THE INVENTION [0002] The present invention generally relates to polyester compositions made from terephthalic acid, an ester thereof, ...

Claims

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Application Information

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IPC IPC(8): C08G63/16
CPCA01G9/1438Y10T428/24942A61J17/00A61M1/16B01D61/30B29B2911/14986B29C49/00B29K2067/00B29L2031/7542B32B17/10018B32B27/36B65D1/0207C08G63/199C08J5/18C08J7/047C08J7/123C08J2367/00C08J2367/02C08J2483/00C08K3/32C08K5/521C08K2201/014C08L67/02C08L69/00C08L101/00E01F8/0005E04D13/03G02B1/105G02B5/3083G02F1/133606A47F5/00Y10T428/24479Y10T428/24107Y10T428/162Y10T428/161Y10T428/1352Y10T428/139Y10T428/1397B65D43/00B65D25/00B65D23/10C08L2666/02C08L2666/18C08L67/00Y10T428/31507Y10T428/31786Y10T428/31663Y10T428/31504G02B1/10G02B1/14Y02A40/25B29C49/0005C08G63/183G02B1/04C08L67/03C08J7/0427C09D167/02
Inventor CRAWFORD, EMMETT DUDLEYPECORINI, THOMAS JOSEPHMCWILLIAMS, DOUGLAS STEPHENSPORTER, DAVID SCOTTCONNELL, GARY WAYNE
Owner EASTMAN CHEM CO
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